Image sensor with big and small pixels and method of manufacture

1. A method of manufacturing an image sensor, comprising: providing a substrate; forming a first set of sensor pixels on said substrate arranged in rows and columns; forming a second set of sensor pixels on said substrate arranged in rows and columns, each pixel of said second set of pixels being smaller than each pixel of said first set of pixels; forming a set of transparent windows over said first set of sensor pixels, said transparent windows being arranged in rows and columns and each being configured to pass light within a first range of wavelengths; and forming a set of filters over said second set of sensor pixels, said filters being arranged in rows and columns and each being configured to pass light within one of a set of ranges of wavelengths, each range of wavelengths of said set of ranges of wavelengths being a subrange of said first range of wavelengths; wherein each pixel of said first set of pixels has a center disposed between adjacent rows of said second set of pixels and between adjacent columns of said second set of pixels; and wherein said step of forming a second set of sensor pixels includes forming each pixel of said second set of sensor pixels spaced apart from every other pixel of said second set of sensor pixels by a distance greater than a width of one of said sensor pixels of said second set of sensor pixels.

2. The method of claim 1 , wherein said set of ranges of wavelengths includes a second range of wavelengths, a third range of wavelengths, and a fourth range of wavelengths.

3. The method of claim 2 , wherein: said second range of wavelengths corresponds to a red portion of the visible light spectrum; said third range of wavelengths corresponds to a green portion of the visible light spectrum; and said fourth range of wavelengths corresponds to a blue portion of the visible light spectrum.

4. The method of claim 3 , wherein said step of forming a set of filters over said second set of sensor pixels includes: forming a first group of filters configured to pass only light within said second range of wavelengths, said first group of filters comprising 25% of said second set of filters; forming a second group of filters configured to pass only light within said third range of wavelengths, said second group of filters comprising 50% of said second set of filters; and forming a third group of filters configured to pass only light within said fourth range of wavelengths, said third group of filters comprising 25% of said second set of filters.

5. The method of claim 4 , wherein said step of forming a set of filters includes: forming one half of said rows of said set filters with filters of said first group and with filters of said second group arranged in an alternating pattern; and forming the other half of said rows of said set of filters with filters of said second group and with filters of said third group arranged in an alternating pattern.

6. The method of claim 5 , wherein said step of forming a set of filters includes: forming half of said columns of said set of filters with filters of said first group and with filters of said second group arranged in an alternating pattern; and forming the other half of said columns of said set of filters with filters of said second group and with filters of said third group arranged in an alternating pattern.

7. The method of claim 1 , wherein said step of forming a second set of sensor pixels includes forming each pixel of said second set of sensor pixels between each group of 4 adjacent pixels of said first set of sensor pixels.

8. The method of claim 7 , wherein said step of forming a set of filters includes forming each filter of said set of filters between each group of 4 adjacent transparent windows of said set of transparent windows.

9. The method of claim 8 , wherein said step of forming a second set of sensor pixels includes forming each pixel of said second set of sensor pixels between truncated corners of 4 adjacent pixels of said first set of sensor pixels.

10. The method of claim 9 , wherein said step of forming a set of filters includes forming each filter of said set of filters between truncated corners of 4 adjacent transparent windows of said set of transparent windows.

11. The method of claim 1 , wherein said step of forming a set of filters includes forming each filter of said set of filters spaced apart from every other filter of said set of filters by a distance greater than a width of one of said filters.

12. The method of claim 1 , wherein said steps of forming a first set of sensor pixels and forming a second set of sensor pixels include: forming one fewer rows of said sensor pixels of said second set than said sensor pixels of said first set; and forming one fewer columns of said sensor pixels of said second than said sensor pixels of said first set.

13. The method of claim 12 , wherein said steps of forming a set of transparent windows and forming a set of filters include: forming one fewer rows of said filters than said transparent windows; and forming one fewer columns of said filters than said transparent windows.

14. The method of claim 1 , further comprising forming a set of micro-lenses above said set of transparent windows and said set of filters, said set of micro-lenses being configured to increase the effective area of each pixel of said first set and said second set of sensor pixels.

15. The method of claim 1 , wherein said step of forming a second set of sensor pixels includes forming said second set of sensor pixels with a pitch between adjacent rows of said second set of sensor pixels that is equal to a pitch between adjacent rows of said first set of sensor pixels.

16. The method of claim 15 , wherein said step of forming a second set of sensor pixels includes forming said second set of sensor pixels with a pitch between adjacent columns of said second set of sensor pixels that is equal to a pitch between adjacent columns of said first set of sensor pixels.

17. The method of claim 16 , wherein said step of forming a set of filters includes forming said set of filters with a pitch between adjacent rows of said set of filters that is equal to a pitch between adjacent rows of said set of transparent windows.

18. The method of claim 17 , wherein said step of forming a set of filters includes forming said set of filters with a pitch between adjacent columns of said set of filters that is equal to a pitch between adjacent rows of said set of transparent windows.

19. A method for manufacturing a camera module, comprising: providing a housing defining an aperture; disposing a lens in said aperture; and fixing an image sensor within said housing; and wherein said image sensor is disposed in a focal plane of said lens; said image sensor includes a plurality of image sensor pixels including a first set arranged in rows and columns and a second set arranged in rows and columns, each pixel of said first set configured to detect light of the entire visible spectrum and each pixel of said second set operative to detect light of one of three distinct colors, each pixel of said first set being larger than each pixel of said second set; each of said first set of pixels has a center disposed between adjacent rows of said second set of pixels and between adjacent columns of said second set of pixels; and wherein said step of forming a second set of sensor pixels includes forming each pixel of said second set of sensor pixels spaced apart from every other pixel of said second set of sensor pixels by a distance greater than a width of one of said sensor pixels of said second set of sensor pixels.